On the dynamical and physical state of the {open_quotes}diffuse ionized medium{close_quotes} in nearby spiral galaxies

Wang, J; Heckman, T M; Lehnert, M D

doi:10.1086/304942

Title: On the dynamical and physical state of the {open_quotes}diffuse ionized medium{close_quotes} in nearby spiral galaxies

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Abstract

We report the initial results from a program to study the morphology, physical state, and kinematics of the {open_quotes}diffuse ionized medium{close_quotes} (DIM) in a sample of the nearest and brightest late-type galaxies. For each of five galaxies (NGC 2403, M81, NGC 4395, M51, and M101), we have analyzed deep narrowband H{alpha} images of the entire star-forming disk and long-slit spectra of the inner ({approximately}10kpc) disk with a resolution of 40{endash}75kms{sup {minus}1}. We find that the DIM covers most of the star-forming disk and is morphologically related to the presence of high surface brightness gas (the giant HII regions). The DIM and the giant HII regions differ systematically in their physical and dynamical state. The DIM is characterized by enhanced emission in the low-ionization forbidden lines ([OI], [NII], and [SII]), and even the high-ionization [OIII] {lambda}5007 line is moderately strong in the DIM in at least three cases. This last result contrasts with upper limits on the [OIII] surface brightness in the local DIM of our own Galaxy (the {open_quotes}Reynolds Layer{close_quotes}). We directly verify the inference made by Lehnert and Heckman that the DIM contributes significantly to the spatially integrated (global) emission-line ratios measured in late-type galaxies. We also find thatmore »« less

Authors:

Wang, J; Heckman, T M ^[1]; Lehnert, M D ^[2]

Department of Physics and Astronomy, Johns Hopkins University, Baltimore, Maryland 21218 (United States)
Leiden Observatory, Postbus 9513, 2300RA, Leiden (The Netherlands)

Publication Date:: Mon Dec 01 00:00:00 EST 1997

Research Org.:: Lawrence Livermore National Lab. (LLNL), Livermore, CA (United States)

OSTI Identifier:: 613968

DOE Contract Number:: W-7405-ENG-48

Resource Type:: Journal Article

Journal Name:: Astrophysical Journal

Additional Journal Information:: Journal Volume: 491; Journal Issue: 1; Other Information: PBD: Dec 1997

Country of Publication:: United States

Language:: English

Subject:: 66 PHYSICS; GALAXIES; SPIRAL CONFIGURATION; INTERSTELLAR SPACE; CLOUDS; EMISSION SPECTRA; HYDROGEN; IMAGES; DYNAMICS; IONIZED GASES

Citation Formats


                    Wang, J, Heckman, T M, and Lehnert, M D. On the dynamical and physical state of the {open_quotes}diffuse ionized medium{close_quotes} in nearby spiral galaxies.  United States: N. p., 1997. 
        Web.  doi:10.1086/304942.

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                    Wang, J, Heckman, T M, & Lehnert, M D. On the dynamical and physical state of the {open_quotes}diffuse ionized medium{close_quotes} in nearby spiral galaxies.  United States.  https://doi.org/10.1086/304942

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                    Wang, J, Heckman, T M, and Lehnert, M D. 1997.  
        "On the dynamical and physical state of the {open_quotes}diffuse ionized medium{close_quotes} in nearby spiral galaxies".  United States.  https://doi.org/10.1086/304942.

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@article{osti_613968,

  title        = {On the dynamical and physical state of the {open_quotes}diffuse ionized medium{close_quotes} in nearby spiral galaxies},

  author       = {Wang, J and Heckman, T M and Lehnert, M D},

  abstractNote = {We report the initial results from a program to study the morphology, physical state, and kinematics of the {open_quotes}diffuse ionized medium{close_quotes} (DIM) in a sample of the nearest and brightest late-type galaxies. For each of five galaxies (NGC 2403, M81, NGC 4395, M51, and M101), we have analyzed deep narrowband H{alpha} images of the entire star-forming disk and long-slit spectra of the inner ({approximately}10kpc) disk with a resolution of 40{endash}75kms{sup {minus}1}. We find that the DIM covers most of the star-forming disk and is morphologically related to the presence of high surface brightness gas (the giant HII regions). The DIM and the giant HII regions differ systematically in their physical and dynamical state. The DIM is characterized by enhanced emission in the low-ionization forbidden lines ([OI], [NII], and [SII]), and even the high-ionization [OIII] {lambda}5007 line is moderately strong in the DIM in at least three cases. This last result contrasts with upper limits on the [OIII] surface brightness in the local DIM of our own Galaxy (the {open_quotes}Reynolds Layer{close_quotes}). We directly verify the inference made by Lehnert and Heckman that the DIM contributes significantly to the spatially integrated (global) emission-line ratios measured in late-type galaxies. We also find that the DIM is more disturbed kinematically than the gas in the giant HII regions. The deconvolved (intrinsic) widths of the H{alpha} and [NII] {lambda}6584 lines range from 30 to 100kms{sup {minus}1} (FWHM) in the DIM compared to 20{endash}50kms{sup {minus}1} in the giant HII regions. The high-ionization gas in the DIM is more kinematically disturbed than the low-ionization gas: the [OIII] {lambda}5007 lines have intrinsic widths of 70{endash}150kms{sup {minus}1}. The differing kinematics implies that the DIM is not a single monolithic phase of the ISM. Instead, it may consist of a {open_quotes}quiescent{close_quotes} DIM with a low ionization state and small scale height (few hundred parsec) and a {open_quotes}disturbed{close_quotes} DIM with a high ionization state and moderate scale height (0.5{endash}1 kpc). We argue that the quiescent DIM is most likely photoionized by radiation from O stars leaking out of giant HII regions (although this requires fine-tuning the opacity of galactic disks to ionizing radiation). The disturbed DIM is most likely heated by the mechanical energy supplied by supernovae and stellar winds. Since the disturbed DIM accounts for only a minority ({lt}20{percent}) of the H{alpha} emission in the regions we have studied, there is no fundamental energetics problem with this model, but it does require mechanically heated gas to have a high areal covering factor in the inner disk (which needs to be confirmed observationally). We find no clear discontinuity between the physical and dynamical properties of the giant HII regions and the quiescent DIM. The quiescent DIM is morphologically related to the giant HII regions and there is a smooth dependence of the emission-line ratios and emission-line widths on the surface brightness of the emission. Thus, we suggest that a unified approach to the study of the DIM and giant HII regions in star-forming galaxies will prove fruitful. {copyright} {ital 1997} {ital The American Astronomical Society}},

  doi          = {10.1086/304942},

  url          = {https://www.osti.gov/biblio/613968},
  journal      = {Astrophysical Journal},
number       = 1,

  volume       = 491,

  place        = {United States},

  year         = {Mon Dec 01 00:00:00 EST 1997},

  month        = {Mon Dec 01 00:00:00 EST 1997}

}

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